Selfish DNA Isn’t Just Harmful but Plays Vital Role in Embryo Development
A study reveals that transposable elements, once thought to be parasitic, are crucial for early human development. Researchers from Sinai Health have shown that these genomic segments, known as “selfish DNA,” particularly LINE-1, actively contribute to the proper formation of human embryos. Historically regarded as harmful, these elements account for around 20% of the human genome, despite our functional genes making up less than 2%.
Transposons and Early Embryo Development
Transposons, which have the ability to move around within the genome, were initially likened to viruses because of their capacity to replicate and disrupt normal genes. Dr Juan Zhang, a senior co-author and postdoctoral fellow, observed that LINE-1 RNA is particularly active in the early stages of embryo development, contrary to the longstanding belief that these elements primarily cause diseases like cancer or haemophilia.
Crucial Insights From Blocking LINE-1
Dr Zhang’s team found that when LINE-1 activity was blocked in human embryonic stem cells, the cells reverted to a stage known as the 8-cell stage. Cells can still develop into both embryonic and placental cells at this stage. This finding demonstrates the importance of LINE-1 in helping the embryo develop specialised cells essential for its progression.
Organisation of DNA Within the Nucleus
Further research showed that LINE-1 plays a significant role in organising DNA within the cell’s nucleus. It moves chromosome 19, key during the 8-cell stage, to areas that regulate gene expression. This organisation ensures the embryo progresses smoothly through its developmental stages.
Potential Impact on Medicine and Disease Research
These findings could impact fertility treatments and stem cell research, offering new insights into how early human development can be supported. Additionally, understanding LINE-1’s function may shed light on its involvement in neurological disorders and cancer conditions. Dr Anne-Claude Gingras, another prominent voice in the research, acknowledged the significance of this study, noting that much remains to be discovered about these intriguing genetic
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Helium-3, a rare isotope formed during the early solar system, may be locked within Earth’s solid core, as indicated by recent research. This discovery could provide insights into how quickly the planet was formed. Unlike helium-4, which is commonly produced through radioactive decay, helium-3 originates from the primordial gas cloud that shaped the solar system. While traces of this isotope have been detected in volcanic hotspots and mid-ocean ridges, the mechanism behind its retention for billions of years remains uncertain. Given helium’s volatile nature, most of it was expected to escape Earth’s mantle due to tectonic activity or the giant impact that led to the formation of the Moon.
Helium and Iron Interaction at Core Conditions
According to the study published in Physical Review Letters, researchers at the University of Tokyo led by Kei Hirose examined whether helium could mix with iron under conditions mimicking Earth’s core. Using a diamond-tipped anvil, the team subjected iron and helium to extreme pressures ranging from 50,000 to 550,000 times the atmospheric pressure at Earth’s surface. As per reports, the samples were heated to temperatures between 727 and 2,727 degrees Celsius before being depressurised and analysed at cryogenic temperatures to prevent helium escape. Findings indicated that solid iron could incorporate up to 3.3 percent helium, suggesting the isotope may remain trapped in the core over long periods.
Potential Impact on Earth’s Formation Timeline
Peter Olson, a geophysicist at the University of New Mexico, told that these results confirm helium’s compatibility with Earth’s solid core. However, he noted that only 4 percent of the core is solid, with the majority existing in a liquid state. Further research is needed to determine whether helium-3 could be similarly retained in the liquid portion. Olson also highlighted the significance of this discovery in dating Earth’s formation. If helium-3 was incorporated into the core, it suggests the planet formed rapidly within a few million years. A slower formation process spanning 100 million years would likely have resulted in minimal helium retention.
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The scheduled test flight of SpaceX’s Starship Flight 8, which was expected to take off from the company’s Starbase facility in Texas on March 3, has been postponed due to last-minute technical issues. The launch was planned within a window starting at 6:30 p.m. ET with a mission to test various aspects of the rocket’s performance, including booster recovery and satellite deployment. SpaceX has not yet announced a new launch date, but updates are expected soon. The flight was set to be the eighth major test for Starship, which is designed to be the most powerful rocket ever built.
Starship’s Mission and Test Objectives
As per reports, the flight plan, Starship was expected to launch atop its Super Heavy booster, which was intended to return to the launch pad and be caught by the “chopstick” arms of the tower. The upper stage of the rocket was set to release four mock versions of SpaceX’s Starlink satellites on a suborbital trajectory before splashing down in the Indian Ocean approximately 66 minutes after liftoff. A similar test conducted on January 16 with Flight 7 saw the successful recovery of the booster, but the upper stage failed due to a propellant leak, leading to an explosion before it could complete its mission.
NASA’s Interest and Future Developments
NASA has selected Starship as the lunar lander for the Artemis program, which aims to return astronauts to the Moon in the coming years. The vehicle is also being developed for deep-space missions, including potential crewed journeys to Mars. Elon Musk, CEO of SpaceX, has indicated that future iterations of Starship may be even larger than the current model, which stands at 123 metres. The Federal Aviation Administration (FAA) is expected to grant approval for up to 25 Starship launches in 2025, marking a significant step toward the rocket’s operational use.
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